SU618730A1 - Device for control of gas electrostatic purification installation - Google Patents

Description

The invention relates to electrostatic gas cleaning and can be used in the purification of gases containing high electrical resistivity dust.

Devices for electro-massage gas cleaning are known, which automatically maintain the voltage on the filter electrodes at a level close to the optimum JlJ and 2.

It is also known that a device allows for increasing dust collection efficiency by adjusting the supply of conditioning agent to the gas flow in order to regulate the specific electrical resistance of dust J3j. In this case, the supply of the reagent is carried out according to the average statistical time of delaying the electrical breakdown in the filter, which indirectly characterizes the value of this resistance.

This device is technically closest to and achieved is the closest to the invention.

The electrowelking process can only be optimized while maintaining the optimum voltage at the filter electrodes and the electrical resistivity of the captured dust.

The aim of the invention is to increase the degree of dust collection by maintaining an optimal level of specific

electrical resistance of dust together with optimization of voltage on the filter electrodes.

The goal is achieved by the fact that a device having a regulator of

of the conditioning reagent, equipped with a control unit made in the form of a spark discharge selector and a synchronizer, the inputs of which are connected in parallel to the primary winding of the step-up transformer, and the output of the selector is controlled

Claims (3)

which, through a low-pass filter, is connected with an amplifier-converter, and the control input of each of these keys is connected to one of the two phase-gap transmitters of the phase zones that are connected separately and connected to the output of the synchronizer. The block diagram of the device shown in the drawing. The electrostatic precipitator 1 is supplied via pulsating current through voltage regulator 2, step-up transformer b and rectifier device 4. The control unit is connected to the primary winding of the boost transformer 3 and to the resistor 5, which is connected in series with the electrostatic precipitator. The control unit has a selector 6 of the spark bits and a synchronizer 7. The selector 6 through two controllable switches 8 and 9 and the integral-differentiating links 10 and 11 are connected to the corresponding inputs of the balanced amplifier 12. The output of the balanced amplifier is connected through an amplifier 13 converter with regulator of conditioning reagent supply. The control input of each of the keys 8 and 9 is connected to one of the two formers 14 and 15 phase zones connected in series and connected via the setpoint 16, the position of the phase zones to the output of the synchronizer 7. The device operates as follows. The regulator 2 maintains on the electro filter 1 a pre-breakdown state, tolerating a certain frequency of sparking. Ei iskoobrazovaniya selector 6 expresses. Atyvaet momentum. Depending on which controlled key 8 or 9 is open at this moment, the impulse will go to one of the integral-differentiating links Yu or 11. The time integral-differential is constant: their links are chosen relatively large, so depending on The frequency of arrival of pulses at the links is determined by certain dynamic voltages with some constant component. The greater the frequency of arrival of pulses, the more constant the component is and vice versa. The ratio of the voltages on the integral-differentiating links x connected to the inputs of the balanced amplifier 12 determines the polarity and the voltage of the output voltage. 04 The ratio of the frequency of arrival of pulses to the integral-differentiating links is determined by the temporal distribution of the probability density of the sparking phase and the nature of operation of the keys of the 8 and 9 zones. The zone keys are opened successively one after the other for an equal period of time and synchronously with the variable component of the voltage on the electrostatic precipitator. The zone keys are controlled from the formers 14 and 15 phase zones, which are triggered via the phase position setting unit 16, which is a delay unit, from the synchronizer 7, which generates pulses when passing through the supply voltage. The output voltage of the balanced amplifier 12 through the low-pass filter 13 and the amplifier-converter acts on the supply reagent supply regulator. Claims An apparatus for controlling an electrostatic gas cleaning unit comprising; A voltage regulator connected through a step-up transformer and a high-voltage rectifier to the electrostatic precipitator electrodes, and a control unit connected through an amplifier-converter to the amount of conditioning reagent, in order to increase the degree of gas cleaning, the control unit is made the form of the selector spark discharger and the synchronizer, the inputs of which are connected in parallel to the primary winding of the step-up transformer, and the output of the selector through two controlled keys and integra The differential connectors are connected to the corresponding inputs of the balanced amplifier, the output of which is connected to an amplifier through a low-pass filter, and the control input of each of these keys is connected to one of the two phase arresters connected in series and connected through the setting unit of the phase zones to the synchronizer output. Sources of information taken into account in the examination; 1. Author's certificate K 217502, cl. G05 F 1/22, 1970. 2. Authors certificate N. 3556O6 Cl. G05 F 1/22, 1972. 3. Certificate of authorship K 312612, cl. In O1 D 46 46, 1969. Nosy i-ltelch) .npeoffoI yofofnMff